We've updated our Privacy Policy to make it clearer how we use your personal data. We use cookies to provide you with a better experience. You can read our Cookie Policy here.

Advertisement
A picture of Andy Tay, PhD

Andy Tay, PhD profile page


Andy Tay received his PhD from the University of California, Los Angeles, focusing on neuromodulation and engineering. He subsequently completed his postdoctoral training at Stanford University where he developed nanotechnologies for immuno-engineering. Andy Tay is currently a Presidential Young Professor at the National University of Singapore. The Tay lab is dedicated to developing innovative approaches for cancer immunotherapy and tissue repair by harnessing the immune system. Their work leverages the use of biomaterials and nanotechnology. Andy Tay is a recipient of international awards including the Christopher Hewitt Outstanding Young Investigator Award and Terasaki Young Innovator Award. He is listed as a 2019 Forbes 30 Under 30 (US/Canada, Science), 2020 World Economic Forum Young Scientist and 2022/3 Top 2% Scientist in the World by Stanford University.


Got a Question for Andy Tay, PhD?


Get in touch using the contact form linked here and we’ll get back to you shortly.



Published Content
Total: 13
Cancer cells
Article

Helping Immune Cells Fight Cancer

In this article, we will explore the obstacles that reduce the efficacy of cell-based cancer immunotherapy and strategies to overcome them.
Fragment-Based Approach To Enhance Drug Discovery Productivity content piece image
Article

Fragment-Based Approach To Enhance Drug Discovery Productivity

This article will discuss advances in fragment-based drug discovery and will highlight some examples of recent successes in this area.
High-Throughput Screening Methods for Drug Discovery content piece image
Article

High-Throughput Screening Methods for Drug Discovery

In this article, we will discuss how the use of different high-throughput screening methods can help to accelerate the drug discovery process.
Assessing Kinetics in Drug Discovery content piece image
Listicle

Assessing Kinetics in Drug Discovery

Download this listicle to learn more about the importance of drug kinetics, key experimental techniques and computational modeling tools.
Promises and Challenges of Target-Based Drug Discovery content piece image
Article

Promises and Challenges of Target-Based Drug Discovery

In this article, we will compare the two key drug discovery approaches, the challenges and opportunities of each and the future of target-based drug discovery.
Antibodies in Neuroscience content piece image
Listicle

Antibodies in Neuroscience

Antibodies are invaluable tools in many areas of life science research, including neuroscience. Download this listicle to discover how antibodies are being applied to address key questions in the field, explore manufacturing approaches and learn how to choose the right antibodies for your research.
Supporting Therapeutic Development With Synthetic Biology content piece image
Article

Supporting Therapeutic Development With Synthetic Biology

This article will discuss how synthetic biology principles can be applied at various stages of therapeutic development – from elucidating disease mechanisms and identifying drug targets to producing therapeutics at scale.
Exploiting Genetics To Improve Cancer Diagnosis and Treatment content piece image
Article

Exploiting Genetics To Improve Cancer Diagnosis and Treatment

In this article, we will explore how advances in genetics and liquid biopsy can be exploited to enhance cancer diagnosis and treatment.
A Closer Look at Pharmacokinetics content piece image
Article

A Closer Look at Pharmacokinetics

In this article, we will learn about the four main stages of pharmacokinetics – absorption, distribution, metabolism and elimination (ADME) and discuss the factors that influence them.
Advances in Single-Cell Sequencing and Their Applications  content piece image
Article

Advances in Single-Cell Sequencing and Their Applications

Here, we describe the latest developments in single-cell sequencing and their applications in diverse fields such as oncology and microbiology.
Advertisement